Gc. Packard et Mj. Packard, THE BASIS FOR COLD TOLERANCE IN HATCHLING PAINTED TURTLES (CHRYSEMYS-PICTA), Physiological zoology, 68(1), 1995, pp. 129-148
Hatchling painted turtles (Chrysemys picta) overwintering in subterran
ean hibernacula may withstand exposure to temperatures as low as -11 d
egrees C. Some workers contend that this ability to survive in the col
d results from a tolerance by the animals for freezing of water in the
extracellular compartment, but other workers assert that hatchlings a
ctually sustain a state of supercooling and remain unfrozen. We perfor
med three experiments in the laboratory in an attempt to resolve this
controversy. Fifty percent of hatchlings confined in artificial hibern
acula in damp, clayey soil survived exposure to temperatures between -
8 degrees and -9 degrees C, and some survived to near -11 degrees C. C
lean, dry turtles that were removed from contact with ice survived in
a supercooled, unfrozen state at minimum temperatures averaging -8.5 d
egrees C, so animals seem not to be at serious risk of freezing by spo
ntaneous nucleation at temperatures spanning the range encountered in
nature. The integument in the axillary and inguinal pouches of hatchli
ngs is highly conductive to ice, but skin on the extremities resists t
he penetration of ice into body compartments from the environment. By
withdrawing their head and limbs inside the shell and thereby removing
skin of the axillary and inguinal pouches from contact with ice, hatc
hlings generally were able to avoid inoculation and to survive in froz
en soil at -26 degrees C for over 2 wk without freezing. However, a fe
w animals experienced delayed inoculation, and all these turtles died.
Thus, hatchling painted turtles overwintering in the field probably w
ithstand exposure to cold by undergoing supercooling and not by tolera
ting freezing.